2N3301 V7 WicRoELECTRONICS 2N3302 GENERAL PURPOSE AMPLIFIERS AND SWITCHES DESCRIPTION The 2N3301 and 2N3302 are silicon planar epitaxial NPN transistors in Jedec TO-18 metal case. They are designed to cover a wide range of amplifier and switching applications. TO-18 INTERNAL SCHEMATIC DIAGRAM c B NPN Ss sev E ABSOLUTE MAXIMUM RATINGS Symbol Parameter Value Unit VcBo Collector-base Voltage (l_ = 0) 60 Vv VocEO Collector-emitter Voltage (lp = 0) 30 Vv VeEBo Emitter-base Voltage (Ic = 0) 5 Vv le Collector Current 0.5 A Prot Total Power Dissipation at Tamp < 25 C 0.36 Ww at Tcase < 25 C 1.8 WwW Tstg, Tj Storage and Junction Temperature 65 to 200 C January 1989 1/52N3301-2N3302 THERMAL DATA Rth j-case | Thermal Resistance Junction-case Max 97.2 C/W Rth j-amb | Thermal Resistance Junction-ambient Max 486 CAN ELECTRICAL CHARACTERISTICS (Tamb = 25 CC unless otherwise specified) Symbol Parameter Test Conditions Min. Typ. Max. Unit Ices Collector Cutoff Current Vop =50V 10 nA (Vee
.5 1.0A LOOM | T 2N3298 S|N 9-67 HPA L.0W | C] 175 25 15 | 0 80 | 240 10M 200M | T 2N3299 S| N 8-219] HSS 0.8W | A | 200 60 30] 0 40 | 120] 0.154 | 0.22 0.15A 250M | T 2N3300 S|N 8-219} HSS 0.8W] A | 200 60 30 | O | 100 } 300 | 0.15A | 0.22 0.154 250M | T 2N3301L S| N 8-219] HSS | 0.36W | A | 200 60 30] 0 40 | 120 | 0.15A | 0.22 O.15A 250M | T 2N3302 S|[N 8-219} HSS | 0.36W | A | 200 60 30 | O | 100 | 300 |] 0.154 | 0.22 0,158 250M | T 2N3303 S| N 8-221] HSS 0.6W]} A | 200 25 12 | 0 30 | 120 0.34 10.33 O.3A 450M | T 2N3304 S| P 8-223} MSS 0.3W | A | 200 6.0 6.0]0 30] 120 LOM | 0.16 LOM 500M | T 2N3305 S| P AFA 0.6W | A | 200 50 40] 0 40 | 120 0,1M 0.2 10M 40/E 20M | T 2N3306 S| P AFA 0.6W | A | 200 50 40 | 0 | 100 | 300 0.1M 0.2 10M 70] E 20M | T 2N3307 S| P 9-69 RFA 0.2W | A | 200 40 35] 0 40 | 250 2.0M 0.4 3.0M 40/E 300M | T 2N3308 S| P 9-69 RFA 0.2W | A | 200 30 25] 0 25 | 250 2.0M 0.4 3.0M 25 ]/E 300M | T 2N3309 S|} N | 2N3553 9-74 MPA 3.5W] C4175 50 50] S |5.0} 100 30M 0.5 0.25A 300M | T 2N3
2N3301 2N3302 GENERAL PURPOSE AMPLIFIERS AND SWITCHES DESCRIPTION The 2N3301 and 2N3302 are silicon planar epitaxial NPN transistors in Jedec TO-18 metal case. They are designed to cover a wide range of amplifier and switching applications. TO-18 INTERNAL SCHEMATIC DIAGRAM ABSOLUTE MAXIMUM RATINGS Symbol Parameter Value Unit V CBO Collector-base Voltage (I E = 0) 60 V V CEO Collector-emitter Voltage (I B = 0) 30 V V EBO Emitter-base Voltage (I C = 0) 5 V IC Pt o t T s t g, T j January 1989 Collector Current 0.5 A Total Power Dissipation at T amb 25 C at T c as e 25 C 0.36 1.8 W W - 65 to 200 C Storage and Junction Temperature 1/5 2N3301-2N3302 THERMAL DATA R t h j- cas e R t h j-amb Thermal Resistance Junction-case Thermal Resistance Junction-ambient Max Max C/W C/W 97.2 486 ELECTRICAL CHARACTERISTICS (T amb = 25 C unless otherwise specified) Symbol Parameter Test Conditions Min. Typ. Max. Unit 10 10 nA A 10 nA I CE S Collector Cutoff Current (V BE = 0) V CB = 50 V V CB
300 300 20 12 +5 200 20at 100 1 20 2 BF121 P 330 350 40 30 4 25 75 at 4 0.05 25 37 BF127 p 330 350 40 30 4 25 60 at 4 0.05 20 } H.F. amplifiers & 37 BF125 PE 330 450 40 35 4 25 90 at 7 0.05 20 oscillators 37 BF123 PE 330 550 40 25 4 25 90 at 7 0.05 20 37 2N3301 PE 360 250 60 630~t(*!SCS 35 at 10 0.01 50 \ ee 2 2N3302 PE 360 250 60 30 45 500 75 at 10 0.01 50s Highspeed switching 5 2N2368 PE 360 400 40 15 4.5 500 40 at 10 0.4 20 2 2N2369 PE 360 500 40 15 4.5 500 80 at 10 0.4 20 H.S. saturated switching 2 2N2369A PE 360 500 40. 15 4.5 500 80 at 10 0.4 20 2 BSW82 PE 500 200 40 25 5 500 30 at 10 0.1 30 2 BSW83 PE 500 200 40 25 5 500 70 at 10 0.1 30 2 BSW84 PE 500 200 75 40 5 500 35 at 10 0.01 50 2 BSW85 PE 500 200 7 40 5 500 75 at 10 0.01 50 a ccoat ans 2 2N2221 PE 500 250 60 30 5 800 35 at 10 0.01 50; High speed switching = 2N2221A PE 500 250 75 40 46 800 35 at 10 0.01 60 2 2N2222 PE 500 250 60 30 5 800 75 at 10 0.01 50 2 2N2222A PE 500 300 75 40 6 800 75 at 10 0.01 60 2 BC337 PE 625 _ 45 5 800 350
63 2N956 PN2222A N 19 2N3134 PN3645 N 63 2N995A PN3640 A 65 2N3135 MPS3703 N 63 2N1132 PN2906 N 63 2N3136 PN3645 N 63 2N1613 PN2221A N 19 2N3250 2N3905 A 66 2N1711 PN2222A N 19 2N3251 2N3906 A 66 2N2218 TN2218 E 19 2N3300 2N4401 A 13 2N2218A TN2218A E 19 2N3301 2N4400 A 13 2N2219 TN2219 E 19 2N3302 2N4401 A 13 2N2219A TN2219A E 19 2N3304 PN3639 A 65 2N2221 PN2221 E 19 2N3440 TN3440 E 36 2N2221A PN2221A E 19 2N3724 TN3724 E 25 2N2222 PN2222 E 19 2N3725 TN3725 E 25 2N2222A PN2222A E 19 2N3944 2N3903 N 23 2N2369 PN2369 E 21 2N3947 2N3904 N 23 2N2369A PN2369A E 21 2N3962 2N5086 N 62 2N2483 2N5209 N 07 2N3964 2N5087 N 62 2N2484 2N5210 N 07 2N3965 2N5087 N 62 2N2604 2N5086 N 62 2N4033 TN4033 E 67 2N2605 2N5086 N 62 2N4036 TN4036 E 67 2N2894 PN3640 A 65 2N4037 TN4037 E 67 2N2894A PN3639 A 65 2N4208 PN3640 N 65 2N2904 TN2904 E 63 2N4209 PN3640 N 65 2N2904A TN2904A E 63 * E = Exact electrical equivalent N = Near electrical equivalent A = Approximate electrical equivalent Note: On N and A categories pleas
8 2N3740A 98 2N3248 68 2N3546 68 2N3741 98 2N3249 68 2N3547 68 2N3741A 98 2N3250A 68 2N3548 68 2N3742 74 2N3251A 68 2N3549 68 2N3743 74 2N3252 73 2N3550 68 2N3762 74 2N3253 73 2N3554 74 2N3763 74 2N3299 73 2N3576 69 2N3764 74 2N3300 73 2N3583 98 2N3766 98 2N3301 68 2N3584 98 2N3767 98 2N3302 68 2N3585 98 2N3771 94 2N3326 73 2N3634 74 2N3772 94 2N3388 73 2N3647 80' 2N3773 94 2N3391A 84 2N3648 80' 2N3789 94 2N3392 84 2N3660 74 2N3790 94 2N3393 84 2N3661 74 2N3791 94 2N3395 84 2N3665 74 2N3792 94 2N3396 84 2N3666 74 2N3798A 69 2N3397 84 2N3668 191 2N3799A 69 2N3398 84 2N3669 191 2N3806 82 2N3402 90 2N3670 191 2N3807 82 2N3403 90 2N3671 74 2N3808 82 2N3404 90 2N3672 69 2N3809 82 2N3405 90 2N3673 80' 2N3810 82 2N3415 84 2N3678 74 2N3810A 82 2N3416 84 2N3700 69 2N3811 82 2N3417 84 2N3701 69 2N3811A 82 * Special Order CE Closest equivalent SE Exact mechanical (slight to significant equivalent, Ce tralTM 5emiccmductor Corlli. electrical and/or mechanical slight electrical differences. differences) EM Exa
-- 15 20 2N3249 PNP SAT SWITCH 15 12 5.0 0.05** 10 100 300 0.1 1.0 0.25 50 8.0 300 -- 90 100 2N3250A PNP AMPL/SWITCH 60 60 5.0 0.02 40 50 150 10 1.0 0.25 10 6.0 250 -- 35 50 2N3251A PNP AMPL/SWITCH 60 60 5.0 0.02 40 100 300 10 1.0 0.25 10 6.0 300 -- 35 50 2N3301 NPN AMPL/SWITCH 60 30 5.0 0.01 50 40 120 150 10 0.22 150 8.0 250 -- -- -- 2N3302 NPN AMPL/SWITCH 60 30 5.0 0.01 50 100 300 150 10 0.22 150 8.0 250 -- -- -- 2N3496 PNP AMPL/SWITCH 80 80 4.0 0.1 50 40 -- 10 10 0.3 10 7.0 200 -- -- -- 2N3497 PNP AMPL/SWITCH 120 120 4.0 0.1 90 40 -- 10 10 0.35 10 6.0 150 -- -- --- 2N3504 PNP AMPL/SWITCH 45 45 5.0 -- -- 100 300 150 10 0.25 50 8.0 200 -- -- 2N3505 PNP AMPL/SWITCH 60 60 5.0 0.01 30 100 300 150 10 0.4 150 8.0 200 -- -- -- 2N3545 PNP SAT SWITCH 20 20 5.0 -- -- 40 120 10 1.0 0.5 100 8.0 250 -- 60 90 2N3546 PNP SAT SWITCH 15 12 4.5 0.01 10 30 120 10 1.0 0.5 100 6.0 700 -- 40 30 2N3547 PNP LOW NOISE 60 60 6.0 0.025 45 100 500 1.0 5.0 1.0 10 8.0 45 5.0 -- -- 2N3548 PNP LOW NOISE 60 45 6.0 0.01 45 100
300 300 20 12 +5 200 20at 100 1 20 2 BF121 P 330 350 40 30 4 25 75 at 4 0.05 25 37 BF127 p 330 350 40 30 4 25 60 at 4 0.05 20 } H.F. amplifiers & 37 BF125 PE 330 450 40 35 4 25 90 at 7 0.05 20 oscillators 37 BF123 PE 330 550 40 25 4 25 90 at 7 0.05 20 37 2N3301 PE 360 250 60 630~t(*!SCS 35 at 10 0.01 50 \ ee 2 2N3302 PE 360 250 60 30 45 500 75 at 10 0.01 50s Highspeed switching 5 2N2368 PE 360 400 40 15 4.5 500 40 at 10 0.4 20 2 2N2369 PE 360 500 40 15 4.5 500 80 at 10 0.4 20 H.S. saturated switching 2 2N2369A PE 360 500 40. 15 4.5 500 80 at 10 0.4 20 2 BSW82 PE 500 200 40 25 5 500 30 at 10 0.1 30 2 BSW83 PE 500 200 40 25 5 500 70 at 10 0.1 30 2 BSW84 PE 500 200 75 40 5 500 35 at 10 0.01 50 2 BSW85 PE 500 200 7 40 5 500 75 at 10 0.01 50 a ccoat ans 2 2N2221 PE 500 250 60 30 5 800 35 at 10 0.01 50; High speed switching = 2N2221A PE 500 250 75 40 46 800 35 at 10 0.01 60 2 2N2222 PE 500 250 60 30 5 800 75 at 10 0.01 50 2 2N2222A PE 500 300 75 40 6 800 75 at 10 0.01 60 2 BC337 PE 625 _ 45 5 800 350
252 BIPOLAR.SLB * * Bipolar Transistor 2N3253 Q2N3253 BIPOLAR.SLB * * Bipolar Transistor 2N3299 Q2N3299 BIPOLAR.SLB * * Bipolar Transistor 2N3300 Q2N3300 BIPOLAR.SLB * * New for 8.0 Device Type Generic Name Bipolar Transistor Mfg. Name Symbol Name Library 2N3301 Q2N3301 Bipolar Transistor 2N3302 Bipolar Transistor Tech Type Model Package BIPOLAR.SLB * * Q2N3302 BIPOLAR.SLB * * 2N3304 Q2N3304 BIPOLAR.SLB * * Bipolar Transistor 2N3390 Q2N3390 BIPOLAR.SLB * * Bipolar Transistor 2N3391 Q2N3391 BIPOLAR.SLB * * Bipolar Transistor 2N3391A Q2N3391A BIPOLAR.SLB * * Bipolar Transistor 2N3392 Q2N3392 BIPOLAR.SLB * * Bipolar Transistor 2N3393 Q2N3393 BIPOLAR.SLB * * Bipolar Transistor 2N3394 Q2N3394 BIPOLAR.SLB * * Bipolar Transistor 2N3395 Q2N3395 BIPOLAR.SLB * * Bipolar Transistor 2N3396 Q2N3396 BIPOLAR.SLB * * Bipolar Transistor 2N3397 Q2N3397 BIPOLAR.SLB * * Bipolar Transistor 2N3398 Q2N3398 BIPOLAR.SLB * * Bipolar Transistor 2N3414 Q2N3414 BIPOLAR.SLB * * Bipolar Transistor 2N3415 Q2N3415 B
60 30 5 10* 50 20 500 10 0.22 1.1 150 8 250 50 150 4 19 20 150 1 40 1200-158 1G 35 10 10 0.6 1.5 500 25 1 10 20 100 nA 10 2N3300 TO-5 60 30 5 10* 50 50 500 10 0.22 1.7 150 8 250 50 150 4 19 50 150 1 100 300 150 10 75 10 10 0.6 15 500 50 1 10 35 100 wA 10 2N3301 TO-18 60 30 5 10* 50 20 500 10 0.22 1.1 150 8 250 50 150 4 19 20 150 1 40 120 150 10 0.6 1.5 500 35 10 10 25 1 10 20 100 vA 10 2N3302 To-18 | 60 30 5 10* 50 50 500 10 0.22 1 150 8 | 250 50 | 150 4 19 50 150 1 100 300 150 10 0.6 1.5 500 75 10 10 50 1 10 35 100 2A 10 / 2n3474 | To-92] 25 2 5 100 25 75 225 2 45 0.3 06 #13 50 19 (94) 2N3641 TO-92 Same as PN3641, see page 1-22 for explanation 19 (92) 2N3642 TO-92 Same as PN3642, see page 1-22 for explanation 19 (92) 2N3643 TO-92 Same as PN3643, see page 1-22 for explanation 19 (92) 2N3678 TO-S 75 55 6 10 60 25 500 10 04 06 1.2 150 250 2 19 20 150 1 40 120 150, 10 1.0 2.0 500 35 10 10 28 1 10 : 20 100 vA 10 2N4140 TO-92 Same as PN4140, see page 1-22 for explanation 19 (92) Conversion of Bipolar
(BSW39_ 2a 10-39 BSS 17, 2N5322 BSW 41(A) Phi Si-N _ 8, 40/25V, 0,3/0,5A, 0,32W, >250MHz, <60/60ns a 10-18 _ _ BSX 48...49, BSY 63, 2N708, 2N4123, ++ BSW 42(A,B) Tho Si-N , 25...60V, 0,2A, 0,3W, 300MHz, 70/250ns, hFE>75 8a 70-108 BC 546 Ta BSY 59, BSX 49, 2N3301...02, 2N3903...04++ BSW42: 25/25V, A=50/50V, B=60/60V (BSW44 BSW 43(A,B) Tho Si-N =BSW 42: hFE=180...540 {BSW45 8a TO-106 BC 546 7a BSV 59, BSX 49, 2N3301...02, 2N3G03...04++ BSW 44(A,B) The Si-P $, 25...60V, 0,2A, 0,3W, >150MHz, 215/105ns, hFE>75 Ba TO-106 BC 556 7a BCY 77, BSW 24, 2N3250A...3251A, +4 BSW44: 25/25V, A=50/50V, B=80/60V (Bsw42 BSW 45(A,B) Tho Si-P =BSW 44: hFE=180...540 {BSW43 8a TO-106 BC 556 7a BCY 77, BSW 24, 2N3250A...2251A. ++ BSW 42....45(A)K Si-N/P =BSW 42...45(A,B): Te T0-92 >BSW 42...45(A,B)_ Tho,Tix _Si-N LFS, 40/40V, 1A, 0,6W, >200MHz, <-/50ns_ 2a 70-39 oe 29, ; Phi SEN LES, 65V, 0,8A, 0,8W, 250MHz 2a T0-5 : BSW 27...28, BSX 32, BSX 59...61,2N3252+ Mot,Phi,Tix Si-N =2N2218 2a T0-39 -2N2218 -2N2218 M
N PNP 15 2N916 2N916 2N696 2N1991 2N2330 2N1983 2N697 | 2N2331 2N1984 2N718 2N1420 29 2N2195 30 2N2218 | 2N3133 2N2218 | 2N2800 2N2219 | 2N3134 2N2219 | 2N2801 2N2221 | 2N3135 2N2221 | 2N2837 2N2222 | 2N3136 2N2222 | 2N2838 2N3299 | 2N3133 2N3300 | 2N3134 2N3301 | 2N3135 39 2N3302 | 2N3136 49 2N758 2N3250 2N2218A| 2N3250 2N2194 | 2N2904 2N2192 | 2N3244 2N3506 2N795 2N3251 2N2219A! 2N3251 2N2218A} 2N2905 2N2193 | 2N3245 2N3507 2N760 MM4048 2N22214! 2N2219A) 2N2906 2N915 2N2222A 2N2221A] 2N2907 2N929 2N2224 2N2222A!| 2N3485 2N930 2N3946 2N3486 2N3946 2N3947 2N4890 59 2N3947 60 2N758A | 2N3798 2N910 2N3250A 2N656 2N2904A 2ZN759A | 2N3799 2N911 2N3251A 2N699 2N2905A 2N760A | 2N3250A 2N1990 2N2906A 2N929A | 2N3251A 2N2907A 2N9304 2N3485A MM2483 2N3486A 79 MM2484 80 2N739 2N3494 2N720A | 2N3494 2N720A 2N3019 Y 2N740 2N3496 2N1893 | 2N3496 2N3019 2N3020 99 2N2405 2N3020 100 2N4924 | 2N3495 2N3498 | 2N3495 2N3498 | 2N3634 \ 2N3497 2N3499 | 2N3497 2N3499 | 2N3635 2N4928 2N4924 | 2N9634 2N4924 2N3635 149 2
63 2N956 PN2222A N 19 2N3134 PN3645 N 63 2N995A PN3640 A 65 2N3135 MPS3703 N 63 2N1132 PN2906 N 63 2N3136 PN3645 N 63 2N1613 PN2221A N 19 2N3250 2N3905 A 66 2N1711 PN2222A N 19 2N3251 2N3906 A 66 2N2218 TN2218 E 19 2N3300 2N4401 A 13 2N2218A TN2218A E 19 2N3301 2N4400 A 13 2N2219 TN2219 E 19 2N3302 2N4401 A 13 2N2219A TN2219A E 19 2N3304 PN3639 A 65 2N2221 PN2221 E 19 2N3440 TN3440 E 36 2N2221A PN2221A E 19 2N3724 TN3724 E 25 2N2222 PN2222 E 19 2N3725 TN3725 E 25 2N2222A PN2222A E 19 2N3944 2N3903 N 23 2N2369 PN2369 E 21 2N3947 2N3904 N 23 2N2369A PN2369A E 21 2N3962 2N5086 N 62 2N2483 2N5209 N 07 2N3964 2N5087 N 62 2N2484 2N5210 N 07 2N3965 2N5087 N 62 2N2604 2N5086 N 62 2N4033 TN4033 E 67 2N2605 2N5086 N 62 2N4036 TN4036 E 67 2N2894 PN3640 A 65 2N4037 TN4037 E 67 2N2894A PN3639 A 65 2N4208 PN3640 N 65 2N2904 TN2904 E 63 2N4209 PN3640 N 65 2N2904A TN2904A E 63 * E = Exact electrical equivalent N = Near electrical equivalent A = Approximate electrical equivalent Note: On N and A categories pleas
63 2N956 PN2222A N 19 2N3134 PN3645 N 63 2N995A PN3640 A 65 2N3135 MPS3703 N 63 2N1132 PN2906 N 63 2N3136 PN3645 N 63 2N1613 PN2221A N 19 2N3250 2N3905 A 66 2N1711 PN2222A N 19 2N3251 2N3906 A 66 2N2218 TN2218 E 19 2N3300 2N4401 A 13 2N2218A TN2218A E 19 2N3301 2N4400 A 13 2N2219 TN2219 E 19 2N3302 2N4401 A 13 2N2219A TN2219A E 19 2N3304 PN3639 A 65 2N2221 PN2221 E 19 2N3440 TN3440 E 36 2N2221A PN2221A E 19 2N3724 TN3724 E 25 2N2222 PN2222 E 19 2N3725 TN3725 E 25 2N2222A PN2222A E 19 2N3944 2N3903 N 23 2N2369 PN2369 E 21 2N3947 2N3904 N 23 2N2369A PN2369A E 21 2N3962 2N5086 N 62 2N2483 2N5209 N 07 2N3964 2N5087 N 62 2N2484 2N5210 N 07 2N3965 2N5087 N 62 2N2604 2N5086 N 62 2N4033 TN4033 E 67 2N2605 2N5086 N 62 2N4036 TN4036 E 67 2N2894 PN3640 A 65 2N4037 TN4037 E 67 2N2894A PN3639 A 65 2N4208 PN3640 N 65 2N2904 TN2904 E 63 2N4209 PN3640 N 65 2N2904A TN2904A E 63 * E = Exact electrical equivalent N = Near electrical equivalent A = Approximate electrical equivalent Note: On N and A categories pleas
63 2N956 PN2222A N 19 2N3134 PN3645 N 63 2N995A PN3640 A 65 2N3135 MPS3703 N 63 2N1132 PN2906 N 63 2N3136 PN3645 N 63 2N1613 PN2221A N 19 2N3250 2N3905 A 66 2N1711 PN2222A N 19 2N3251 2N3906 A 66 2N2218 TN2218 E 19 2N3300 2N4401 A 13 2N2218A TN2218A E 19 2N3301 2N4400 A 13 2N2219 TN2219 E 19 2N3302 2N4401 A 13 2N2219A TN2219A E 19 2N3304 PN3639 A 65 2N2221 PN2221 E 19 2N3440 TN3440 E 36 2N2221A PN2221A E 19 2N3724 TN3724 E 25 2N2222 PN2222 E 19 2N3725 TN3725 E 25 2N2222A PN2222A E 19 2N3944 2N3903 N 23 2N2369 PN2369 E 21 2N3947 2N3904 N 23 2N2369A PN2369A E 21 2N3962 2N5086 N 62 2N2483 2N5209 N 07 2N3964 2N5087 N 62 2N2484 2N5210 N 07 2N3965 2N5087 N 62 2N2604 2N5086 N 62 2N4033 TN4033 E 67 2N2605 2N5086 N 62 2N4036 TN4036 E 67 2N2894 PN3640 A 65 2N4037 TN4037 E 67 2N2894A PN3639 A 65 2N4208 PN3640 N 65 2N2904 TN2904 E 63 2N4209 PN3640 N 65 2N2904A TN2904A E 63 * E = Exact electrical equivalent N = Near electrical equivalent A = Approximate electrical equivalent Note: On N and A categories pleas